System, apparatus, and method for generating a lateral meteorological profile on an aircraft display unit

1. A system for generating a lateral meteorological profile on an aircraft display unit, such system comprising: at least one source for providing hazard data; and a lateral profile generator configured to receive hazard data representative of location information of each hazard located in the scene in front of the aircraft, determine profile location data as a function of the hazard data, where the profile location data is representative of a plurality of locations of maximum vertical sector height, where each maximum vertical sector height corresponds to one hazard height located within a vertical sector, and generate profile image data as a function of the profile location data, where the profile image data is representative of a lateral meteorological profile comprised of a plurality of points, where each point corresponds to one location of maximum vertical sector height.

2. The system of claim 1 , wherein each maximum vertical sector height is determined as a function of a maximum hazard elevation angle of the vertical sector.

3. The system of claim 1 , wherein the source for providing hazard data is comprised of a weather radar system, the hazard data is received from the weather radar system, the location information represented in the hazard data is comprised of azimuth, range, and elevation angle information acquired by the weather radar system, and the profile location data is determined as a function of azimuth, range, and elevation angle of the hazard data.

4. The system of claim 1 , further comprising: a source of navigation data, where the hazard data is received via a datalink system, where the location information represented in the hazard data is comprised of delineated horizontal limits and a designated ceiling altitude, and the lateral profile generator has been further configured to receive navigation data representative of aircraft position, such that the profile location data is determined as a function of the navigation data and the delineated horizontal limits and the designated ceiling altitude of the hazard data.

5. The system of claim 1 , wherein the lateral meteorological profile is conformal to the scene outside the aircraft.

6. The system of claim 1 , wherein the lateral profile generator is a processor of a weather radar system, a datalink system, or a presentation system.

7. The system of claim 1 , further comprising: a presentation system configured to receive the profile image data, where the lateral profile generator has been further configured to provide the profile image data to the presentation system, and present the image represented in the profile image data on the surface of at least one display unit of the presentation system.

8. An apparatus for generating a lateral meteorological profile on an aircraft display unit, such apparatus comprising: a lateral profile generator configured to receive hazard data representative of location information of each hazard located in the scene in front of the aircraft from at least one source of hazard data, determine profile location data as a function of the hazard data, where the profile location data is representative of a plurality of locations of maximum vertical sector height, where each maximum vertical sector height corresponds to one hazard height located within a vertical sector, generate profile image data as a function of the profile location data, where the profile image data is representative of a lateral meteorological profile comprised of a plurality of points, where each point corresponds to one location of maximum vertical sector height.

9. The apparatus of claim 8 , wherein each maximum vertical sector height is determined as a function of a maximum hazard elevation angle of the vertical sector.

10. The apparatus of claim 8 , wherein the hazard data is received from a weather radar system, the location information represented in the hazard data is comprised of azimuth, range, and elevation angle information acquired by the weather radar system, and the profile location data is determined as a function of azimuth, range, and elevation angle of the hazard data.

11. The apparatus of claim 8 , wherein the hazard data is received via a datalink system, where the location information represented in the hazard data is comprised of delineated horizontal limits and a designated ceiling altitude, and the lateral profile generator has been further configured to receive navigation data representative of aircraft position, such that the profile location data is determined as a function of the navigation data and the delineated horizontal limits and the designated ceiling altitude of the hazard data.

12. The apparatus of claim 8 , wherein the lateral meteorological profile is conformal to the scene outside the aircraft.

13. The apparatus of claim 8 , wherein the lateral profile generator is a processor of a weather radar system, a datalink system, or a presentation system.

14. The apparatus of claim 8 , wherein the lateral profile generator has been further configured to a presentation system configured to provide the profile image data to the presentation system, whereby the image represented in the profile image data is presented on the surface of at least one display unit of the presentation system.

15. A method for generating a lateral meteorological profile on an aircraft display unit, such method comprising: receiving hazard data representative of location information of each hazard located in the scene in front of the aircraft from at least one source of hazard data; determining profile location data as a function of the hazard data, where the profile location data is representative of a plurality of locations of maximum vertical sector height, where each maximum vertical sector height corresponds to one hazard height located within a vertical sector; and generating profile image data as a function of the profile location data, where the profile image data is representative of a lateral meteorological profile comprised of a plurality of points, where each point corresponds to one location of maximum vertical sector height.

16. The method of claim 15 , wherein each maximum vertical sector height is determined as a function of a maximum hazard elevation angle of the vertical sector.

17. The method of claim 15 , wherein the hazard data is received from a weather radar system, the location information represented in the hazard data is comprised of azimuth, range, and elevation angle information acquired by the weather radar system, and the profile location data is determined as a function of azimuth, range, and elevation angle of the hazard data.

18. The method of claim 15 , further comprising: receiving representative of aircraft position from a source of navigation data, such that the profile location data is determined as a function of the navigation data and delineated horizontal limits and a designated ceiling altitude represented in the hazard data, where the hazard data has been received via a datalink system.

19. The method of claim 15 , wherein the lateral meteorological profile is conformal to the scene outside the aircraft.

20. The method of claim 15 , further comprising: providing the profile image data to a presentation system, whereby the image represented in the profile image data is presented on the surface of at least one display unit of the presentation system.